CN104007934A - Terminal device and storage unit control method - Google Patents
Terminal device and storage unit control method Download PDFInfo
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- CN104007934A CN104007934A CN201310060545.7A CN201310060545A CN104007934A CN 104007934 A CN104007934 A CN 104007934A CN 201310060545 A CN201310060545 A CN 201310060545A CN 104007934 A CN104007934 A CN 104007934A
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Abstract
Disclosed are a storage unit control method and a terminal device. The storage unit control method is applied to the terminal device. The terminal device comprises a first storage unit, a second storage unit and a communication unit. The method includes that after a first instruction which indicates that the terminal device enters a standby mode with a communication function is detected, the terminal device is controlled to enter the standby mode with the communication function, and in the standby mode, the first storage unit and the second storage unit are in a non-operating state; when the terminal device is in an energy-saving mode with the communication function, if synchronous data are received through the communication unit, the terminal device is waken up; in the period of waking up the terminal device, the first storage unit is activated to store the synchronous data, the second storage unit is in the non-operating state, and the access rate of the first storage unit is higher than that of the second storage unit.
Description
Technical field
The present invention relates to a kind of terminal device and storage unit control method.
Background technology
Along with technical development, there is the connected such as AOAC(always on always) the park mode with network function.For example, under the dormancy or standby mode with network function such as AOAC, mixed-media network modules mixed-media in terminal device (as, ethernet module, Wifi, 3G, 4G communication module etc.) keep wake-up states, and from network, receive new data (as, mail or microblogging upgrade etc.) time, this terminal device is waken up, and these data are stored in the storage unit of terminal device.In this case, because often moving (carrying) this terminal device and may exist at terminal device during dormancy or standby mode, user jolts, therefore in the situation that storage unit is mechanical hard disk, owing to coming the data of automatic network to cause the storage unit of terminal device to activate the disc damage that (hard disc rotation) may cause mechanical hard disk, cause thus the lifetime of storage unit.In the prior art, use all solid state hard disk (SSD) to overcome the problems referred to above as storage unit, yet all solid state hard disk can cause the cost of terminal device to uprise.
Summary of the invention
Therefore, according to an aspect of the present invention, a kind of storage unit control method is provided, be applied to terminal device, described terminal device comprises the first storage unit, the second storage unit and communication unit, described method comprises: after indication being detected described terminal device enters the first instruction of the standby mode with communication function, control described terminal device and enter the standby mode with communication function, wherein, under described standby mode, described the first storage unit and described the second storage unit are in off position; At terminal device during thering is the energy saver mode of communication function, if receive synchrodata by described communication unit, wake described terminal device up, during wherein waking described terminal device up, activate described the first storage unit to store described synchrodata, and make described the second storage unit in off position, and the access rate of wherein said the first storage unit is higher than described the second storage unit.
In addition, according to one embodiment of present invention, wherein said the first storage unit is solid state hard disc; And described the second storage unit is mechanical hard disk.
In addition, according to one embodiment of present invention, wherein in described the second storage unit during off position, the disc of described the second storage unit remains static.
In addition, according to one embodiment of present invention, wherein said method further comprises: activating described the first storage unit, and described in described the first cell stores after synchrodata, controlling described terminal device and again enter the standby mode with communication function.
In addition, according to one embodiment of present invention, wherein said method further comprises: at terminal device during thering is the energy saver mode of communication function, if receive the second instruction that the described terminal device of indication enters normal mode, control described terminal device and enter normal mode, wherein, under described normal mode, described the first storage unit and described the second storage unit are all in running order.
In addition, according to a further aspect in the invention, provide a kind of terminal device, comprising: the first storage unit, data are stored in configuration, the second storage unit, data are stored in configuration, and the access rate of wherein said the first storage unit is higher than described the second storage unit, communication unit, configuration receives and sends data, and processing unit, configuration is indicated after described terminal device enters the first instruction of the standby mode with communication function detecting, control described terminal device and enter the standby mode with communication function, and at terminal device during thering is the energy saver mode of communication function, if receive synchrodata by described communication unit, wake described terminal device up, wherein under described standby mode, described the first storage unit and described the second storage unit are in off position, and during waking described terminal device up, described processing unit activates described the first storage unit to store described synchrodata, and make described the second storage unit in off position.
In addition, according to one embodiment of present invention, wherein said the first storage unit is solid state hard disc; And described the second storage unit is mechanical hard disk.
In addition, according to one embodiment of present invention, wherein in described the second storage unit during off position, the disc of described the second storage unit remains static.
In addition, according to one embodiment of present invention, wherein activating described the first storage unit, and described in described the first cell stores after synchrodata, described processing unit is controlled described terminal device and is again entered the standby mode with communication function.
In addition, according to one embodiment of present invention, wherein at terminal device during thering is the energy saver mode of communication function, if described processing unit detects the second instruction that the described terminal device of indication enters normal mode, described processing unit is controlled described terminal device and is entered normal mode, wherein, under described normal mode, described the first storage unit and described the second storage unit are all in running order.
By above-mentioned configuration, after terminal device enters the standby mode with communication function, make as the solid state hard disc of the first storage unit and as the mechanical hard disk of the second storage unit in off position to save electric power.Then, at terminal device during thering is the energy saver mode of communication function, if receive synchrodata by communication unit, wake this terminal device up, during wherein waking terminal device up, activate the first storage unit to store described synchrodata, and make the second storage unit in off position.In this case, even if there is Data Update, owing to not working (disc does not rotate) as the mechanical hard disk of the second storage unit, can prevent from, because terminal device moves the situation that (or being carried) causes disc damage, increasing thus the life-span of the second storage unit.In addition, because the power consumption of the first storage unit is lower than the second storage unit, therefore according to the further prolongs standby time of the terminal device of the embodiment of the present invention, increase thus the flying power of terminal device.
Accompanying drawing explanation
Fig. 1 is that diagram is according to the schematic block diagram of the structure of the terminal device of the embodiment of the present invention; And
Fig. 2 is that diagram is according to the schematic flow diagram of the storage unit control method of the embodiment of the present invention.
Embodiment
Describe in detail with reference to the accompanying drawings according to each embodiment of the present invention.Here, it should be noted that in the accompanying drawings, identical Reference numeral is given and substantially had ingredient identical or similar structures and function, and will omit being repeated in this description about them.Here, terminal device can be the terminal device such as notebook computer or panel computer according to an exemplary embodiment of the present invention.
As shown in Figure 1, according to the terminal device 1 of the embodiment of the present invention, can comprise the first storage unit 10, the second storage unit 11, communication unit 12 and processing unit 13.
Here, the first storage unit 10 can comprise high-speed memory (on-mechanical hard disk) arbitrarily.For example, the first storage unit 10 can be realized by solid state hard disc, high speed flash memory or high speed storing card.The first storage unit 10 can be for the arbitrary data of storage terminal equipment.
The second storage unit 11 can be realized by mechanical hard disk, and can be for the arbitrary data of storage terminal equipment.Here, because the first storage unit 10 can be realized by solid state hard disc, high speed flash memory or high speed storing card, therefore the access rate of the first storage unit 10 is usually above the second storage unit 11.
Communication unit 12 can by wired or wireless communication module arbitrarily (as, ethernet module, Wifi, 3G, 4G communication module etc.) realize.Communication unit 12 can be for receiving data and sent to processing unit 13 from specific network, and the data from processing unit 13 can be sent to the particular device in particular network.
Processing unit 13 can by processor or microprocessor arbitrarily (as, central processing unit or EC controller) realize.Here, processing unit 13 can according to be arranged on software in terminal device 1 (as, BIOS) or the firmware being solidificated in wherein carry out default processing.Here, can configure and be arranged on the software in terminal device 1 or be solidificated in the firmware in processing unit 13, make processing unit 13 after indicating terminal equipment 1 being detected and entering the first instruction of the standby mode with communication function, control terminal 1 enters the standby mode with communication function.At terminal device 1, during having the energy saver mode of communication function, if receive synchrodata by communication unit 12, processing unit 13 wakes terminal device 1 up.Here, have under the standby mode of communication function, the first storage unit 10 and the second storage unit 11 are in off position.In addition,, during waking terminal device 1 up, processing unit 13 activates the first storage unit 10 with storage synchrodata, and makes the second storage unit 11 in off position.
The use state of the parts that particularly, processing unit 13 can monitoring terminal equipment 1.For example, the use state of the communication unit 12 of processing unit 13 in can monitoring terminal equipment 1 (as, the open/close state of ethernet module, Wifi module, 3G or 4G module) to judge which kind of standby mode terminal device 1 should enter.The operating system of pressing standby button or operation terminal device 1 the user of terminal device 1 is when entering standby mode, and processing unit 13 receives and makes terminal device 1 enter the standby command of standby mode.In this case, processing unit 13 further judges the use state of the communication unit 12 in terminal device 1.Here, if the use state of the communication unit 12 in processing unit 13 judgement terminal devices 1 is off status, processing unit 13 makes terminal device 1 enter normal standby mode.Here, because the normal standby mode of terminal device 1 is identical with corresponding standby mode of the prior art, therefore repeat no more here.
In addition, if the use state of the communication unit 12 in processing unit 13 judgement terminal devices 1 is for opening state, processing unit 13 judges that it detects the first instruction that indicating terminal equipment 1 enters the standby mode with communication function, and makes terminal device 1 enter the standby mode with communication function.Here, have under the standby mode of communication function, the communication unit 12 of terminal device 1 is in running order, and in the first storage unit 10 and the second storage unit 11 in off position (power on, but do not work) to save electric power.Here, at the mechanical hard disk as the second storage unit 11, during off position, the disc of this mechanical hard disk keeps stationary state, and the disc of this mechanical hard disk does not rotate.In addition, have under the standby mode of communication function, processing unit 13 also can be in off position further to save electric power.
At terminal device 1, during having the energy saver mode of communication function, if communication unit 12 receives synchrodata, processing unit 13 wakes terminal device 1 up.Here, this synchrodata can be such as the new mail pushing, microblogging upgrade for upgrading the synchrodata of the application-specific on terminal device 1.Particularly, at terminal device 1, during having the energy saver mode of communication function, if communication unit 12 receives synchrodata, communication unit 12 can specificly wake instruction up and comes wake up process unit 13 by sending.In this case, processing unit 13 can specificly wake instruction up and is waken up based on this, and based on communication unit 12, send this specificly wake instruction up and determine that this wakes up is for storing waking up of synchrodata.At processing unit 13, determine that this wakes up as for after storing the waking up of synchrodata, processing unit 13 activates (waking up) first storage unit 10 and stores this synchrodata, processing unit 13 does not activate (waking up) second storage unit simultaneously, namely, processing unit 13 does not send activation instruction to the second storage unit 11, makes thus the second storage unit 11 remain on off position.In this case, the disc as the mechanical hard disk of the second storage unit 11 does not rotate.
Then, activating the first storage unit 10, and after the synchrodata of the first storage unit 10 storages from communication unit 12, processing unit 13 control terminals 1 enter the standby mode with communication function again.In this case, similar to the previous description, have under the standby mode of communication function, the communication unit 12 of terminal device 1 is in running order, and in the first storage unit 10 and the second storage unit 11 in off position (power on, but do not work).
In addition, according to another embodiment of the invention, in the situation that the related programs/applications of synchrodata is arranged on the second storage unit 11, can in the first storage unit 10, open up predetermined storage space (as, 100Mb) to keep in synchrodata.In this case, when communication unit 12 receives synchrodata, under the control of processing unit 13, the first storage unit 10 is waken up the information in temporary this synchrodata of this predetermined storage space and the programs/applications that is associated.In this case, temporary synchrodata can import in corresponding programs/applications with new data more when terminal device 1 enters normal mode.
By above-mentioned configuration, though terminal device 1 in there is the standby mode of communication function and under this standby mode communication unit 12 receive synchrodata, do not activate the mechanical hard disk as the second storage unit 11 yet.In this case; even be moved in thering is the terminal device 1 of the standby mode of communication function (as; carry) and simultaneously communication unit 12 receive synchrodata; also can protect the disc of the second storage unit 11 not to be subject to move (as; vibration) impact and damage, increase thus the life-span of the second storage unit 11.In addition, due to as the first storage unit 10(as, SSD, high speed flash memory, high speed storing card etc.) power consumption lower than the second storage unit 11, the stand-by time that therefore can effectively extend terminal device.In addition, because the data volume of synchrodata is conventionally little, the first storage unit 10 that therefore only configuration capacity is less is stored synchrodata, extends the life-span of the second storage unit 11 thus in the situation that do not increase cost and the complexity of terminal device 1.
In addition, at terminal device 1, during having the energy saver mode of communication function, if processing unit 13 receives the second instruction that indicating terminal equipment 1 enters normal mode, processing unit 13 control terminals 1 enter normal mode.Here indicating terminal equipment 1 enter normal mode the second instruction can by default activation button (as, press key or any button) or default operation (as, mouse moves etc.) produce.After processing unit 13 receives this second instruction, processing unit 13 is waken up, and then wakes other hardware of terminal device 1 up so that terminal device 1 enters normal mode.Here, under the normal mode of terminal device 1, the first storage unit 10 and the second storage unit 11 are all in running order.
Below, with reference to Fig. 2, describe according to the storage unit control method of the embodiment of the present invention.Here, the method for Fig. 2 can be applied on the terminal device shown in Fig. 1.This terminal device has the first storage unit, the second storage unit and communication unit.The first storage unit can comprise high-speed memory (on-mechanical hard disk) arbitrarily, and the second storage unit 11 can be realized by mechanical hard disk.Here, because the first storage unit can be realized by solid state hard disc, high speed flash memory or high speed storing card, therefore the access rate of the first storage unit is usually above the second storage unit.
As shown in Figure 2, at step S201, after indicating terminal equipment being detected and entering the first instruction of the standby mode with communication function, control terminal enters the standby mode with communication function, wherein, under this standby mode, the first storage unit and the second storage unit are in off position.At step S202, at terminal device, during thering is the energy saver mode of communication function, if communication unit receives synchrodata, wake terminal device up.At step S203, during waking terminal device up, activate the first storage unit with storage synchrodata, and make the second storage unit in off position.
Particularly, as the description for Fig. 1, the use state of the communication unit 12 of the processing unit 13 of terminal device 1 in can monitoring terminal equipment 1 (as, the open/close state of ethernet module, Wifi module, 3G or 4G module) to judge which kind of standby mode terminal device 1 should enter.For example, the operating system of pressing standby button or operation terminal device 1 the user of terminal device 1 is when entering standby mode, if the use state of the communication unit 12 in processing unit 13 judgement terminal devices 1 is for opening state, processing unit 13 judges that it detects the first instruction that indicating terminal equipment 1 enters the standby mode with communication function, and makes terminal device 1 enter the standby mode with communication function.Here, have under the standby mode of communication function, the communication unit 12 of terminal device 1 is in running order, and in the first storage unit 10 and the second storage unit 11 in off position (power on, but do not work) to save electric power.Here, at the mechanical hard disk as the second storage unit 11, during off position, the disc of this mechanical hard disk keeps stationary state, and the disc of this mechanical hard disk does not rotate.In addition, have under the standby mode of communication function, processing unit 13 also can be in off position further to save electric power.
At terminal device 1, during having the energy saver mode of communication function, if communication unit 12 receives synchrodata, processing unit 13 wakes terminal device 1 up.Here, this synchrodata can be such as the new mail pushing, microblogging upgrade for upgrading the synchrodata of the application-specific on terminal device 1.Particularly, at terminal device 1, during having the energy saver mode of communication function, if communication unit 12 receives synchrodata, communication unit 12 can specificly wake instruction up and comes wake up process unit 13 by sending.In this case, processing unit 13 can specificly wake instruction up and is waken up based on this, and based on communication unit 12, send this specificly wake instruction up and determine that this wakes up is for storing waking up of synchrodata.At processing unit 13, determine that this wakes up as for after storing the waking up of synchrodata, processing unit 13 activates (waking up) first storage unit 10 and stores this synchrodata, processing unit 13 does not activate (waking up) second storage unit simultaneously, namely, processing unit 13 does not send activation instruction to the second storage unit 11, makes thus the second storage unit 11 remain on off position.In this case, the disc as the mechanical hard disk of the second storage unit 11 does not rotate.
In addition, in the situation that the related programs/applications of synchrodata is arranged on the second storage unit 11, can in the first storage unit 10, open up predetermined storage space (as, 100Mb) to keep in synchrodata.In this case, when communication unit 12 receives synchrodata, under the control of processing unit 13, the first storage unit 10 is waken up the information in temporary this synchrodata of this predetermined storage space and the programs/applications that is associated.In this case, temporary synchrodata can import in corresponding programs/applications with new data more when terminal device 1 enters normal mode.
By above-mentioned configuration, though terminal device 1 in there is the standby mode of communication function and under this standby mode communication unit 12 receive synchrodata, do not activate the mechanical hard disk as the second storage unit 11 yet.In this case; even be moved in thering is the terminal device 1 of the standby mode of communication function (as; carry) and simultaneously communication unit 12 receive synchrodata; also can protect the disc of the second storage unit 11 not to be subject to move (as; vibration) impact and damage, increase thus the life-span of the second storage unit 11.In addition, due to as the first storage unit 10(as, SSD, high speed flash memory, high speed storing card etc.) power consumption lower than the second storage unit 11, the stand-by time that therefore can effectively extend terminal device.In addition, because the data volume of synchrodata is conventionally little, the first storage unit 10 that therefore only configuration capacity is less is stored synchrodata, extends the life-span of the second storage unit 11 thus in the situation that do not increase cost and the complexity of terminal device 1.
In addition, the invention is not restricted to this, for example the method for Fig. 2 can further include: activating the first storage unit, and after the first cell stores synchrodata, control terminal enters the standby mode with communication function again.Particularly, activating the first storage unit 10, and after the synchrodata of the first storage unit 10 storages from communication unit 12, processing unit 13 control terminals 1 enter the standby mode with communication function again.In this case, similar to the previous description, have under the standby mode of communication function, the communication unit 12 of terminal device 1 is in running order, and in the first storage unit 10 and the second storage unit 11 in off position (power on, but do not work).In this case, after the first storage unit 10 has been stored synchrodata, terminal device 1 can again enter there is communication function standby mode further to save electric power.
In addition, according to another embodiment of the invention, wherein the method for Fig. 2 can further include: at terminal device during thering is the energy saver mode of communication function, if receive the second instruction that indicating terminal equipment enters normal mode, control terminal enters normal mode, wherein, under normal mode, the first storage unit and the second storage unit are all in running order.
Particularly, at terminal device 1, during having the energy saver mode of communication function, if processing unit 13 receives the second instruction that indicating terminal equipment 1 enters normal mode, processing unit 13 control terminals 1 enter normal mode.Here indicating terminal equipment 1 enter normal mode the second instruction can by default activation button (as, press key or any button) or default operation (as, mouse moves etc.) produce.After processing unit 13 receives this second instruction, processing unit 13 is waken up, and then wakes other hardware of terminal device 1 up so that terminal device 1 enters normal mode.Here, under the normal mode of terminal device 1, the first storage unit 10 and the second storage unit 11 are all in running order.
Describe each embodiment of the present invention in the above in detail.Yet, it should be appreciated by those skilled in the art that without departing from the principles and spirit of the present invention, can carry out various modifications to these embodiment, combination or sub-portfolio, and such modification should fall within the scope of the present invention.
Claims (10)
1. a storage unit control method, is applied to terminal device, and described terminal device comprises the first storage unit, the second storage unit and communication unit, and described method comprises:
After indication being detected described terminal device enter the first instruction of the standby mode with communication function, control described terminal device and enter the standby mode with communication function, wherein, under described standby mode, described the first storage unit and described the second storage unit are in off position;
At terminal device, during thering is the energy saver mode of communication function, if receive synchrodata by described communication unit, wake described terminal device up,
During wherein waking described terminal device up, activate described the first storage unit to store described synchrodata, and make described the second storage unit in off position, and
The access rate of wherein said the first storage unit is higher than described the second storage unit.
2. the method for claim 1, wherein
Described the first storage unit is solid state hard disc; And
Described the second storage unit is mechanical hard disk.
3. the method for claim 1, wherein
In described the second storage unit, during off position, the disc of described the second storage unit remains static.
4. the method for claim 1, further comprises:
Activating described the first storage unit, and described in described the first cell stores after synchrodata, controlling described terminal device and again enter the standby mode with communication function.
5. the method for claim 1, further comprises:
At terminal device during thering is the energy saver mode of communication function, if receive the second instruction that the described terminal device of indication enters normal mode, control described terminal device and enter normal mode, wherein, under described normal mode, described the first storage unit and described the second storage unit are all in running order.
6. a terminal device, comprising:
The first storage unit, data are stored in configuration;
The second storage unit, data are stored in configuration, and the access rate of wherein said the first storage unit is higher than described the second storage unit;
Communication unit, configuration receives and sends data; And
Processing unit, configuration is indicated after described terminal device enters the first instruction of the standby mode with communication function detecting, control described terminal device and enter the standby mode with communication function, and at terminal device during thering is the energy saver mode of communication function, if receive synchrodata by described communication unit, wake described terminal device up
Wherein under described standby mode, described the first storage unit and described the second storage unit be in off position, and
During waking described terminal device up, described processing unit activates described the first storage unit to store described synchrodata, and makes described the second storage unit in off position.
7. terminal device as claimed in claim 6, wherein
Described the first storage unit is solid state hard disc; And
Described the second storage unit is mechanical hard disk.
8. terminal device as claimed in claim 6, wherein
In described the second storage unit, during off position, the disc of described the second storage unit remains static.
9. terminal device as claimed in claim 6, is wherein activating described the first storage unit, and described in described the first cell stores after synchrodata, described processing unit is controlled described terminal device and again entered the standby mode with communication function.
10. terminal device as claimed in claim 6, wherein
At terminal device during thering is the energy saver mode of communication function, if described processing unit detects the second instruction that the described terminal device of indication enters normal mode, described processing unit is controlled described terminal device and is entered normal mode, wherein, under described normal mode, described the first storage unit and described the second storage unit are all in running order.
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| CN201310060545.7A CN104007934B (en) | 2013-02-26 | 2013-02-26 | Terminal device and storage unit control method |
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| CN105988733A (en) * | 2015-03-04 | 2016-10-05 | 宏碁股份有限公司 | Storage apparatus, electronic apparatus and data access method for electronic apparatus |
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